CN114777282A - Air conditioning equipment abnormal state warning method and system based on dynamic rules - Google Patents

Abstract

The invention discloses an air conditioning equipment abnormal state warning method and system based on dynamic rules, wherein the method comprises the following steps: s100, acquiring initial real-time operation data of each module machine in the air conditioning equipment; s200, separating initial real-time operation data of different module machines according to module attributes to obtain second real-time operation data; s300, matching the second real-time operation data with historical data of a corresponding module, if the matching is successful, judging that the data are processed and updating the data, and if the data are not matched, judging that the data are to be processed to obtain third real-time operation data; s400, comparing and judging the third real-time operation data with a set threshold value of a dynamic alarm judgment rule in a database; and S500, outputting an alarm judgment result. The real-time operation data of the air conditioning equipment is separated according to different module attributes, and the data of various different module machines can be processed in parallel, so that the data processing efficiency can be improved, and the real-time performance and the accuracy of analysis and alarm can be improved.

Description

Air conditioning equipment abnormal state warning method and system based on dynamic rules

Technical Field

The invention relates to the technical field of air-conditioning equipment, in particular to an abnormal state warning system of air-conditioning equipment based on dynamic rules. In particular, G06F in the IPC classification.

Background

The air conditioner is internally provided with a plurality of and different module machines, compressors, condensers, evaporators, four-way valves and the like, wherein in the working process, the module machines are in abnormal working due to conditions caused by some reasons, so that the abnormal part of the air conditioner needs to be warned for prompting, and the aim of processing different module machines is fulfilled. However, the data attributes of the modular machines in the air conditioner are different, the number of the modular machines is large and complex, the time consumption and the efficiency are low when the operation is performed, and therefore corresponding alarm rules are needed for different modular machines. Therefore, a method and a system for alarming the abnormal state of the air conditioning equipment based on the dynamic rules are designed to solve the problems.

Disclosure of Invention

The invention aims to provide an air conditioning equipment abnormal state warning method and system based on dynamic rules, which can separate real-time operation data of air conditioning equipment according to different module attributes, can process data of various different module machines in parallel, can improve data processing efficiency, and can improve the real-time performance and accuracy of analysis warning.

In order to achieve the purpose, the invention adopts the following technical scheme:

the abnormal state warning method of the air conditioning equipment based on the dynamic rule comprises the following steps:

s100, acquiring initial real-time operation data of each module machine in the air conditioning equipment;

s200, separating initial real-time operation data of different module machines according to module attributes to obtain second real-time operation data;

s300, matching the second real-time operation data with historical data of a corresponding module in a database, if the second real-time operation data is successfully matched with the historical data, judging that the data is processed and updating the data, and if the second real-time operation data is not matched with the historical data, judging that the data is to be processed to obtain third real-time operation data;

s400, acquiring a dynamic alarm judgment rule in the database, and comparing and judging the third real-time operation data with a set threshold value of the dynamic alarm judgment rule in the database;

and S500, outputting an alarm judgment result, and storing the alarm judgment result into a database in real time.

Further setting as follows: the initial real-time operation data comprises a system return water temperature Tr, a module outlet water temperature Ts, a compressor protection switch state, a compressor high-pressure P, a condenser fin temperature Tf, an exhaust temperature Td and an environment temperature Te;

the module attributes comprise a hydraulic module, a compressor module, and a condenser module;

the third real-time operation data comprises operation data of the hydraulic module to be processed, operation data of the compressor module to be processed and operation data of the condenser module to be processed;

the dynamic alarm judgment rules comprise a hydraulic module dynamic alarm judgment rule, a compressor module dynamic alarm judgment rule and a condenser module dynamic alarm judgment rule.

The hydraulic module dynamic alarm judgment rule comprises the following steps:

s411, acquiring a module outlet water temperature Ts and a system return water temperature Tr in the operation data of the hydraulic module to be processed;

s412, identifying the state of the air conditioning equipment, and distinguishing whether the air conditioning equipment is in a refrigerating non-anti-freezing state or a heating non-anti-freezing state;

s413, when the air conditioning equipment is in a refrigeration non-anti-freezing state and Ts is less than or equal to 3 ℃, alarming the abnormal temperature of the module outlet water, and otherwise, judging the module outlet water to be in a normal state; when the air conditioning equipment is in a heating non-anti-freezing state and Ts is more than or equal to 55 ℃, alarming on abnormal water outlet temperature of the Ts module, and judging the air conditioning equipment to be in a normal state if the Ts is not more than 55 ℃;

s414, continuously detecting the running state of the module, and automatically resetting the fault when the outlet water temperature of the module rises and Ts is more than 8 ℃; when the temperature of the module outlet water is reduced and Ts is less than 50 ℃, the fault is automatically reset.

Step S412 further comprises the steps of judging whether delta T is in a safe range or not when the compressor is started and/or the air conditioning equipment is in a defrosting state, judging the state to be a normal state if the delta T is larger than or equal to minus 2 ℃ and smaller than or equal to 9 ℃, and giving an alarm on the abnormal temperature difference of the hydraulic module if the delta T is larger than 9 ℃ or smaller than minus 2 ℃ and lasts for 90S, wherein the delta T = Ts-Tr in a heating working condition and the delta T = Tr-Ts in a refrigerating working condition.

The dynamic alarm judgment rule of the compressor module comprises the following steps:

s421, obtaining a compressor protection switch state, a compressor high-pressure protection switch state and a compressor high-pressure P in the operation data of the compressor module to be processed;

s422, after the compressor module runs for 15S, detecting the on-off state of the compressor protection switch, if the compressor protection switch is disconnected, alarming the abnormality of the compressor protection switch, and if the compressor protection switch is not disconnected, judging the compressor protection switch to be in a normal state;

s423, if the air conditioning equipment is in a non-defrosting state, the high-voltage protection switch of the compressor is switched off and continues for 10S, alarming the abnormality of the high-voltage protection switch of the compressor, otherwise, judging the state to be a normal state;

and S424, if the air conditioning equipment is in a non-defrosting state, the high pressure of the compressor is greater than 38bar and continues for 10S, giving an alarm on the high pressure of the compressor, and otherwise, judging the air conditioning equipment to be in a normal state.

The dynamic alarm judgment rule of the condenser module comprises the following steps:

s431a, acquiring the fin temperature Tf in the condenser operation data to be processed;

s432a, when the fin temperature Tf is higher than 65 ℃, alarming for fin temperature abnormity and starting fin over-temperature protection;

s433a, when the fin temperature Tf is less than or equal to 55 ℃, delaying for 3min, automatically resetting when the abnormal alarm does not appear within 3min, and quitting the fin over-temperature protection;

and S434a, accumulating the alarm times, and if the accumulated alarm times within 2h exceeds 2 times, manually resetting.

The dynamic alarm judgment rule of the condenser module further comprises the following steps:

s431b, acquiring an exhaust temperature Td and an ambient temperature Te in the operation data of the condenser to be processed and a module outlet water temperature Ts in the operation data of the hydraulic module to be processed;

s432b, delaying for 360S to start detection after the compressor is started or the defrosting is started, and identifying the operation condition of the air conditioning equipment;

s433b, if the refrigeration working condition is adopted and the exhaust temperature is less than or equal to the ambient temperature plus 15 ℃, performing an exhaust temperature abnormity alarm and stopping the corresponding compressor; if the heating working condition is adopted, and the exhaust temperature is less than or equal to the module outlet water temperature plus 15 ℃, after 60 seconds, the exhaust temperature abnormity alarm is carried out, and the corresponding compressor is stopped.

The dynamic alarm rule further comprises the following steps: when the values detected by the temperature sensor and the pressure sensor exceed respective detection thresholds, a temperature sensor failure and a pressure sensor failure are determined, respectively.

The invention also provides an air conditioning equipment abnormal state warning system based on dynamic rules, which is used for realizing the method and comprises the following steps:

a data input unit: the system is used for inputting initial real-time operation data of each module machine in the air conditioning equipment;

a data preprocessing unit: the data input unit is connected with the data input unit and is used for separating initial real-time operation data of different module machines according to module attributes;

a data matching verification unit: the data preprocessing unit is connected with the first real-time operation data and is used for matching the first real-time operation data with historical data of a corresponding module in a database;

a determination unit: the judging unit is connected with the data matching verification unit and stores a dynamic alarm rule and is used for comparing and judging the third real-time operation data with the set threshold value of the dynamic alarm rule;

a result output unit: and the judgment unit is connected with the alarm unit and used for outputting an alarm judgment result.

The invention also provides an electronic device, which comprises a memory, a processor and a computer program which is stored on the memory and can run on the processor, wherein the memory is electrically connected with the processor, and the steps of the method are realized when the processor executes the computer program.

Compared with the prior art, the invention has the beneficial technical effects that:

1. the real-time operation data of the air conditioning equipment is separated according to different module attributes, and data of various different module machines can be processed in parallel, so that the data processing efficiency can be improved.

2. The processed and analyzed third real-time operation data become historical data and are stored in a database, the historical data are matched with the second real-time operation data in the next analysis and early warning, and the real-time performance and the accuracy of analysis and alarm can be improved by dynamically updating the historical data.

3. The alarm judgment result is sent to the display terminal through the modes of short messages, public numbers, internal platforms, large-screen display and the like, and workers can conduct targeted troubleshooting according to the suggestion scheme provided by the alarm judgment result, so that the troubleshooting efficiency is higher and more accurate.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a flowchart illustrating an embodiment of a method for alarming an abnormal condition of an air conditioning device based on dynamic rules according to the present invention;

FIG. 2 is a flow chart of the hydraulic module dynamic alarm decision rule provided by the present invention;

FIG. 3 is a flow chart of the compressor module dynamic alarm decision rule work provided by the present invention;

FIG. 4 is a flowchart illustrating an exemplary embodiment of a dynamic alarm determination rule for a condenser module;

FIG. 5 is a flowchart illustrating operation of another embodiment of a dynamic alarm determination rule for a condenser module according to the present invention;

fig. 6 is a block diagram of an electronic device according to an embodiment of the present invention.

Reference numerals are as follows: 10. a processor; 20. a memory; 30. a communication interface; 40. an external device; 50. a display terminal; 60. a network adapter.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Example 1

Referring to fig. 1, an embodiment of a method for alarming an abnormal state of air conditioning equipment based on dynamic rules, disclosed by the invention, comprises the following steps:

s100, acquiring initial real-time operation data of each module machine in the air conditioning equipment. The initial real-time operation data comprises but is not limited to a system return water temperature Tr, a module outlet water temperature Ts, a compressor protection switch state, a compressor high-pressure, a condenser fin temperature Tf, an exhaust temperature Td, an environment temperature Te and detection time points of all operation data.

It should be noted that a first temperature detection piece is arranged on the water return pipe of the hydraulic module, and the return water temperature of the system is obtained through detection of the first temperature detection piece. And a second temperature detection piece is arranged on the water outlet pipe of the hydraulic module, and the outlet water temperature of the module is obtained through detection of the second temperature detection piece. The compressor protection switch integrates the functions of high temperature of the internal coil of the compressor and phase loss monitoring before the compressor is started. A high-pressure protection switch is installed on a refrigerant pipeline between an exhaust port of an air conditioner compressor and a four-way reversing valve, the high-pressure protection switch is generally set to be a normally closed switch, the high-pressure of the compressor is obtained through detection of the high-pressure protection switch, the high-pressure protection switch is disconnected when the high-pressure protection switch is higher than the set pressure of the switch, and the high-pressure protection switch automatically resets when the high-pressure protection switch is lower than the set pressure of the switch. And a third temperature detection piece is arranged at the high-pressure steam end of the condenser of the outdoor unit, and the temperature of the fins is obtained through detection of the third temperature detection piece. And a fourth temperature detection piece is arranged on the outer side of the outdoor unit condenser, and the exhaust temperature is detected by the fourth temperature detection piece. And a fifth temperature detection piece is arranged on the evaporator of the indoor unit, and the ambient temperature (indoor ambient temperature) is detected by the fifth temperature detection piece.

The first, second, third, fourth and fifth temperature detecting elements are all temperature sensors in the prior art, the high-voltage switch is a pressure sensor in the prior art, the setting mode and the working principle of the high-voltage switch in the air conditioning equipment are all the prior art, the invention only obtains operation data by using the working principle of the high-voltage switch for analysis, and details are not repeated here.

And S200, separating initial real-time operation data of different module machines according to the module attributes to obtain second real-time operation data. Wherein the module attributes include a hydro module, a compressor module, and a condenser module.

S300, matching the second real-time operation data with historical data of a corresponding module in a database, if the second real-time operation data is successfully matched with the historical data, judging that the data are processed and updating the data, and if the second real-time operation data is not matched with the historical data, judging that the data are to be processed to obtain third real-time operation data.

Specifically, the second real-time running data comprises detection time points, module attributes and specific numerical values corresponding to the running data, the second real-time running data is matched with the historical data, and if the detection time points, the module attributes and the specific numerical values are successfully matched, the processed data is judged; and if not, judging the data to be processed to obtain third real-time operation data. The third real-time operation data comprises operation data of the hydraulic module to be processed, operation data of the compressor module to be processed and operation data of the condenser module to be processed.

S400, obtaining the dynamic alarm rule in the database, and comparing and judging the third real-time operation data with the set threshold value of the dynamic alarm rule in the database.

And S500, outputting an alarm judgment result, and storing the alarm judgment result into a database in real time. At the moment, the analyzed third real-time operation data becomes historical data, the historical data is matched with the second real-time operation data in the next round of analysis and early warning, and the real-time performance and the accuracy of analysis and warning can be improved by dynamically updating the historical data.

Referring to fig. 2, in another embodiment of the present invention, the hydraulic module dynamic alarm determination rule includes the following steps:

s411, acquiring a module outlet water temperature Ts and a system return water temperature Tr in the operation data of the hydraulic module to be processed.

And S412, identifying the state of the air conditioning equipment, and distinguishing whether the air conditioning equipment is in a refrigerating non-anti-freezing state or a heating non-anti-freezing state.

S413, when the air conditioning equipment is in a refrigeration non-anti-freezing state and Ts is less than or equal to 3 ℃, alarming the abnormal temperature of the module outlet water, and otherwise, judging the module outlet water to be in a normal state; and when the air conditioning equipment is in a heating non-anti-freezing state and Ts is more than or equal to 55 ℃, alarming the abnormal water outlet temperature of the Ts module, and otherwise, judging the equipment to be in a normal state.

S414, continuously detecting the running state of the module, and automatically resetting the fault when the outlet water temperature of the module rises and Ts is more than 8 ℃; when the temperature of the outlet water of the module is reduced and Ts is less than 50 ℃, the fault is automatically reset.

Step S412 may further include, when the compressor is started and/or the air conditioning device is in a defrosting state, determining whether Δ T is within a safe range, if Δ T is greater than or equal to-2 ℃ and less than or equal to 9 ℃, determining as a normal state, and if Δ T is greater than 9 ℃ or Δ T is less than-2 ℃ and continues for 90S, performing hydraulic module temperature difference abnormality alarm, where Δ T = Ts-Tr in a heating condition and Δ T = Tr-Ts in a cooling condition.

Referring to fig. 3, in another embodiment of the present invention, a compressor module dynamic alarm determination rule includes the following steps:

and S421, acquiring a compressor protection switch state, a compressor high-pressure protection switch state and a compressor high-pressure P in the operation data of the compressor module to be processed.

And S422, after the compressor module runs for 15S, detecting the on-off state of the compressor protection switch, if the compressor protection switch is disconnected, alarming the abnormality of the compressor protection switch, and if the compressor protection switch is not disconnected, judging the compressor protection switch to be in a normal state.

And S423, if the air conditioning equipment is in the non-defrosting state, the compressor high-voltage protection switch is switched off and continues for 10S, an abnormal alarm is given out on the compressor high-voltage protection switch, and if not, the normal state is determined.

And S424, if the air conditioning equipment is in a non-defrosting state, the high pressure of the compressor is greater than 38bar and continues for 10S, giving an alarm on the high pressure of the compressor, and otherwise, judging the air conditioning equipment to be in a normal state.

Referring to fig. 4, in another embodiment of the present invention, the dynamic alarm determination rule of the condenser module includes the following steps:

s431a, acquiring the fin temperature Tf in the condenser operation data to be processed;

s432a, when the fin temperature Tf is higher than 65 ℃, alarming for fin temperature abnormity and starting fin over-temperature protection;

s433a, when the temperature Tf of the fin is less than or equal to 55 ℃, delaying for 3min, automatically resetting when the abnormal alarm does not occur within 3min, and quitting the over-temperature protection of the fin;

and S434a, accumulating the alarm times, and if the alarm times accumulated in 2h exceed 2 times, manually resetting.

Referring to fig. 5, in another embodiment of the present invention, the condenser module dynamic alarm determination rule further includes the following steps:

s431b, acquiring an exhaust temperature Td and an ambient temperature Te in the operation data of the condenser to be processed and a module outlet water temperature Ts in the operation data of the hydraulic module to be processed;

s432b, delaying for 360S to start detection after the compressor is started or the defrosting is started, and identifying the operation condition of the air conditioning equipment;

s433b, if the refrigeration working condition is adopted and the exhaust temperature is less than or equal to the ambient temperature plus 15 ℃, performing an exhaust temperature abnormity alarm and stopping the corresponding compressor; if the heating working condition is adopted, and the exhaust temperature is less than or equal to the module outlet water temperature plus 15 ℃, after 60 seconds, the exhaust temperature abnormity alarm is carried out, and the corresponding compressor is stopped.

The dynamic alarm rule further comprises the following steps: and when the values detected by the temperature sensor and the pressure sensor exceed respective detection thresholds, respectively judging that the temperature sensor has a fault and the pressure sensor has a fault, and respectively carrying out temperature sensor fault alarm and pressure sensor fault alarm.

And the alarm judgment result is sent to the display terminal in the modes of short message, public number, internal platform, large-screen display and the like. And the alarm judgment result provides abnormal conditions and corresponding suggested schemes of all modules of the air conditioning equipment. For example: and (3) alarming when the temperature of the condenser fins is overhigh, and suggesting a processing scheme: 1. checking whether the liquid refrigerant is sufficient; 2. checking the distribution condition of cooling water of the condenser; 3. it is checked whether the condenser needs cleaning.

The staff can carry out targeted troubleshooting according to the proposal provided by the alarm judgment result, and the troubleshooting efficiency is higher and more accurate.

The invention also provides an air conditioning equipment abnormal state warning system based on the dynamic rules, which comprises a data input unit, a data preprocessing unit, a data matching verification unit, a judgment unit and a result output unit.

The data input unit is used for inputting initial real-time operation data of each module machine in the air conditioning equipment.

The data preprocessing unit is connected with the data input unit and used for separating initial real-time running data of different module machines according to the module attributes.

And the data matching verification unit is connected with the data preprocessing unit and is used for matching the second real-time running data with the historical data of the corresponding module in the database.

The judging unit is connected with the data matching verification unit, and the judging unit stores a dynamic alarm rule and is used for comparing and judging the third real-time operation data and the set threshold value of the dynamic alarm rule.

The result output unit is connected with the judging unit and used for outputting the alarm judging result.

The working principle and the specific working process of the air conditioning equipment abnormal state warning system based on the dynamic rules refer to the method embodiment, and are not described herein again.

Referring to fig. 6, the electronic device provided by the present invention includes a memory 20, a processor 10, and a computer program stored in the memory 20 and executable on the processor 10, where the memory 20 is electrically connected to the processor 10, and the computer program may be a dynamic alarm determination rule in the above method. The specific implementation process of the steps of the above-mentioned test method embodiment, which are implemented by the processor 10 when executing the computer program, may refer to the foregoing method embodiment, and is not described herein again.

It should be noted that the steps S411, S421 and S431 do not have a fixed execution sequence, and the processor 10 may obtain the parameters in sequence according to any sequence, or obtain all the parameters through multitask processing, without being limited to the step sequence shown in fig. 2-5.

The memory 20 may be a variety of different types of memory devices for storing various types of data. For example, the memory may be a memory or a memory of the computer device, and may also be a memory card that is externally connected to the computer device, such as a flash memory, an SM card, an SD card, and the like. Further, the memory 20 may include non-volatile memory, such as a hard disk, a memory, a plug-in hard disk, a smart memory card, a secure digital card, a flash memory card, at least one magnetic disk storage device, a flash memory device, or other non-volatile solid state storage device. The memory 20 is used for storing various data, such as various application programs installed in the computer device, data set and obtained by applying the above-mentioned test method, and the like.

The processor 10 may be a central processing unit, but may also be other general purpose processors, digital signal processors, application specific integrated circuits, field programmable gate arrays or other programmable logic devices, discrete gate or transistor logic, discrete hardware components, or the like. The general purpose processor may be a microprocessor or the processor may be any conventional processor or the like, the processor being the control center of the virtual air conditioning system/computer device, with various interfaces and lines connecting the various parts of the overall virtual air conditioning system/computer device.

Optionally, the electronic device may further include: a communication interface 30 through which the electronic device may be communicatively coupled to one or more external devices 40 (e.g., a keyboard, a pointing device, a display terminal 50, etc.) via communication interface 30. The alarm judgment result is sent to the external equipment 40 through short messages, public numbers, internal platforms, large-screen display and other modes, so that the running state of each module of the air conditioning equipment is monitored in real time, and a worker can perform targeted troubleshooting according to a proposal provided by the alarm judgment result, and the troubleshooting efficiency is higher and more accurate.

Optionally, the electronic device may further include: a network adapter 60 by which the electronic device may communicate with one or more networks (e.g., a Local Area Network (LAN), a Wide Area Network (WAN), and/or a public network, such as the internet) via the network adapter 60.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and these modifications or substitutions do not depart from the spirit of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The abnormal state warning method of the air conditioning equipment based on the dynamic rule is characterized by comprising the following steps:

s100, acquiring initial real-time operation data of each module machine in the air conditioning equipment;

s200, separating initial real-time operation data of different module machines according to module attributes to obtain second real-time operation data;

s300, matching the second real-time operation data with historical data of a corresponding module in a database, if the second real-time operation data is successfully matched with the historical data, judging that the data is processed and updating the data, and if the second real-time operation data is not matched with the historical data, judging that the data is to be processed to obtain third real-time operation data;

s400, acquiring a dynamic alarm judgment rule in the database, and comparing and judging the third real-time operation data with a set threshold value of the dynamic alarm judgment rule in the database;

and S500, outputting an alarm judgment result, and storing the alarm judgment result into a database in real time.

2. The dynamic rule-based air conditioning equipment abnormal state warning method of claim 1, wherein the initial real-time operation data comprises a system return water temperature Tr, a module outlet water temperature Ts, a compressor protection switch state, a compressor high-pressure P, a condenser fin temperature Tf, an exhaust temperature Td, and an ambient temperature Te;

the module attributes comprise a hydraulic module, a compressor module, and a condenser module;

the third real-time operation data comprises operation data of the hydraulic module to be processed, operation data of the compressor module to be processed and operation data of the condenser module to be processed;

the dynamic alarm judgment rules comprise a hydraulic module dynamic alarm judgment rule, a compressor module dynamic alarm judgment rule and a condenser module dynamic alarm judgment rule.

3. The air conditioner abnormal state warning method based on dynamic rules as claimed in claim 2, wherein the water power module dynamic warning decision rule comprises the steps of:

s411, acquiring a module outlet water temperature Ts and a system return water temperature Tr in the operation data of the hydraulic module to be processed;

s412, identifying the state of the air conditioning equipment, and distinguishing whether the air conditioning equipment is in a refrigerating non-anti-freezing state or a heating non-anti-freezing state;

s413, when the air conditioning equipment is in a refrigeration non-anti-freezing state and Ts is less than or equal to 3 ℃, alarming the abnormal temperature of the module outlet water, and otherwise, judging the module outlet water to be in a normal state; when the air conditioning equipment is in a heating non-anti-freezing state and Ts is more than or equal to 55 ℃, alarming for abnormal water outlet temperature of the Ts module, and otherwise, judging the air conditioning equipment to be in a normal state;

s414, continuously detecting the running state of the module, and automatically resetting the fault when the outlet water temperature of the module rises and Ts is more than 8 ℃; when the temperature of the module outlet water is reduced and Ts is less than 50 ℃, the fault is automatically reset.

4. The abnormal state warning method of air conditioning equipment based on dynamic rules of claim 3, wherein step S412 further comprises judging whether Δ T is in a safe range when the compressor is started and/or the air conditioning equipment is in a defrosting state, if Δ T is greater than or equal to-2 ℃ and less than or equal to 9 ℃, determining as a normal state, and if Δ T is greater than 9 ℃ or Δ T is less than-2 ℃ and lasts for 90S, performing hydraulic module temperature difference abnormal alarm, wherein Δ T = Ts-Tr in a heating condition and Δ T = Tr-Ts in a cooling condition.

5. The abnormal state warning method of air conditioning equipment based on dynamic rules of claim 2, wherein the compressor module dynamic warning decision rule comprises the following steps:

s421, obtaining a compressor protection switch state, a compressor high-pressure protection switch state and a compressor high-pressure P in the operation data of the compressor module to be processed;

s422, after the compressor module runs for 15S, detecting the on-off state of the compressor protection switch, if the compressor protection switch is disconnected, alarming the abnormality of the compressor protection switch, and if the compressor protection switch is not disconnected, judging the compressor protection switch to be in a normal state;

s423, if the air conditioning equipment is in a non-defrosting state, the high-voltage protection switch of the compressor is switched off and continues for 10S, alarming the abnormality of the high-voltage protection switch of the compressor, otherwise, judging the state to be a normal state;

and S424, if the air conditioning equipment is in a non-defrosting state, the high pressure of the compressor is greater than 38bar and continues for 10S, giving an alarm on the high pressure of the compressor, and otherwise, judging the air conditioning equipment to be in a normal state.

6. The abnormal state warning method of air conditioning equipment based on dynamic rules as claimed in claim 2, wherein the condenser module dynamic warning decision rule comprises the steps of:

s431a, acquiring the fin temperature Tf in the condenser operation data to be processed;

s432a, when the fin temperature Tf is more than 65 ℃, alarming the abnormal fin temperature and starting the over-temperature protection of the fin;

s433a, when the temperature Tf of the fin is less than or equal to 55 ℃, delaying for 3min, automatically resetting when the abnormal alarm does not occur within 3min, and quitting the over-temperature protection of the fin;

and S434a, accumulating the alarm times, and if the accumulated alarm times within 2h exceeds 2 times, manually resetting.

7. The abnormal state warning method of air conditioning equipment based on dynamic rules of claim 2, wherein the condenser module dynamic warning decision rule further comprises the following steps:

s431b, acquiring an exhaust temperature Td and an ambient temperature Te in the condenser operation data to be processed and a module outlet water temperature Ts in the hydraulic module operation data to be processed;

s432b, starting detection after the compressor is started or defrosting is started and delaying for 360S, and identifying the operation condition of the air conditioning equipment;

s433b, if the refrigeration working condition is adopted and the exhaust temperature is less than or equal to the ambient temperature plus 15 ℃, performing an exhaust temperature abnormity alarm and stopping the corresponding compressor; if the heating working condition is adopted, and the exhaust temperature is less than or equal to the module outlet water temperature plus 15 ℃, after 60 seconds, the exhaust temperature abnormity alarm is carried out, and the corresponding compressor is stopped.

8. The abnormal state warning method of air conditioning equipment based on dynamic rules as claimed in claim 2, wherein the dynamic warning rules further comprise the steps of: when the values detected by the temperature sensor and the pressure sensor exceed respective detection thresholds, a temperature sensor failure and a pressure sensor failure are determined, respectively.

9. An air conditioning equipment abnormal state warning system based on dynamic rules, which is used for realizing the method of any one of the above claims 1-8, and is characterized by comprising the following steps:

a data input unit: the system is used for inputting initial real-time operation data of each module machine in the air conditioning equipment;

a data preprocessing unit: the data input unit is connected with the data input unit and is used for separating initial real-time operation data of different module machines according to module attributes;

a data matching verification unit: the data preprocessing unit is connected with the first real-time operation data and is used for matching the first real-time operation data with historical data of a corresponding module in a database;

a determination unit: the judging unit is connected with the data matching verification unit and stores a dynamic alarm rule and is used for comparing and judging the third real-time operation data with the set threshold value of the dynamic alarm rule;

a result output unit: and the judgment unit is connected with the alarm unit and used for outputting an alarm judgment result.

10. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the memory being electrically connected to the processor, the processor implementing the steps of the method according to any of the claims 1 to 8 when executing the computer program.

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